[1] ISO/IEC 15444-1: Information technology-JPEG 2000 image coding system-Part 1[S].[s.l.]:[s.n.],2000.
[2] CALDERBANK A R,DAUBECHIES I,SWELDENS W,et al. Wavelet transforms that map integers to integers[J]. Applied and Computational Harmonic Analysis. 1998,5(3): 332-369.
[3] Gall D L,Tabatabai A. Sub-band coding of digital images using symmetric short kernel filters and arithmetic coding techniques [J]. Proceedings of the IEEE International Conference on Acoustic,Speech and Signal Processing,1988,2(3): 761- 764.
[7] SWELDENS W. The Lifting Scheme: a Custom-Design Construction of Biorthogonal Wavelets[J]. Applied Computing Harmonic Analysis,1996,3(2): 186-200.
[8] Michael D A. The JPEG-2000 Still Image Compression Standard[Z]. Canada V6T 1Z4: Dept. of Electrical and Computer Engineering University of British Columbia Vancouver,2000.
[9] SWELDENS W. The lifting scheme: A construction of second generation wavelets[J]. SIAM Journal of Mathematical Analysis,1998,29( 2): 511-546.
[10] ADAMS M D,KOSSENTINI F. Reversible integer-to-integer wavelet transforms for image compression: Performance evaluation and analysis[J]. IEEE Trans on Image Processing,2000,9(6) : 1010-1024.
[12] CHAO H,FISHER P. An approach of integer reversible wavelet transform for Image Compression [J] . The Wavelet Digest. 1996,5(8): 19-38.
[13] MALLAT S. A Theory for Multiresolution Signal Decomposition: The Wavelet Representation[J]. IEEE Trans. Pattern Recognition and Machine Intelligence. 1989,11(7): 674- 693.
[14] STRANG G,NGUYEN T. Wavelets and Filter Banks [M]. England: Wellesley-Cambridge Press,1996.